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Allergic Conditions in Sports
Seth Smith, MD, CAQ-SM, PharmD TPC Course
February 7, 2016
Goals and Objectives
• Describe diagnosis and management of exercise-induced bronchospasm/bronchoconstriction (EIB)
• Describe diagnosis and management of allergic rhinitis (AR)
• Describe diagnosis and management of other allergic reactions in athletes
Exercise Induced Bronchospasm (EIB)
• Occurs in 10% of general population and 80-90% of those with underlying asthma
• Prevalence of 8 to 50% in athletes • Transient, reversible bronchospasm triggered
by a bout of exercise • Takes 5 to 8 mins to induce EIB, peaks 5 to 10
mins after cessation of exercise, dissipates at 25-30 mins
Exercise Induced Bronchospasm (EIB)
• Seen in cold weather athletes (cross country skiers), endurance athletes, and swimmers
• Symptoms: – Wheezing, cough, SOB, chest tightness, poor
performance, fatigue, “feeling out of shape” – Poor predictors of EIB as other etiologies have
similar symptoms
Exercise Induced Bronchospasm (EIB)
• Suspected etiologies: – A) Vasodilation of airways occurs after exercise to
warm the airways causing water loss and engorgement of airways…resulting in bronchoconstriction and release of inflammatory mediators
– B) Environmental irritants…chlorine or other gases
Exercise Induced Bronchospasm (EIB)
• Diagnosis: – No accepted standard test for diagnosis of EIB – Obtain spirometry first to r/o underlying asthma
• If present, treat underlying asthma first – Fall in FEV1 of 10% or more with appropriate
challenge test • Pharmacologic…methacholine, histamine, saline • Exercise…stationary bicycle or treadmill • Eucapnic voluntary hyperventilation
– Inspiration of mixture of cold, dry air – Recommended by the IOC
Exercise Induced Bronchospasm (EIB)
• Treatment: – Nonpharmacologic
• Avoid known triggers • Choose sports with low minute ventilation • Pre-exercise warmup 45 to 60 mins prior to
event…induces a relative refractory period • Dietary sodium restriction for 1-2 weeks • Dietary anti-inflammatories…omega-3 fish oil
– Pharmacologic – mainstay of treatment for EIB • Control any underlying asthma first
Exercise Induced Bronchospasm (EIB)
• Inhaled Short Acting Beta2 Agonists (SABAs) – Albuterol, levalbuterol – First line treatment of EIB – Prohibited by IOC and WABA without therapeutic
use exemption (TUE) – Inhaled 15 minutes prior to exercise – Used for more strenuous workouts or
competitions…tachyphylaxis can develop
Exercise Induced Bronchospasm (EIB)
• Mast Cell Stabilizers – More effective than anti-cholinergics but not as
effective as SABAs • Inhaled Corticosteroids
– Mainstay of treatment for underlying asthma – Limited data to treat EIB
• Leukotriene Receptor Antagonists – Effective for treatment of EIB…but not as much as
SABAs
Allergic Rhinitis (AR)
• Allergens/irritants cause inflammation of nasal mucosa
• Symptoms: – Rhinorrhea, nasal congestion, sneezing, itching,
fatigue, headache, malaise, sleep disturbance • Thought to affect 10 to 30% of the population • Symptoms of AR reported in up to 60% of
athletes – 40% of endurance athletes report symptoms
Allergic Rhinitis (AR)
• Treatment: – Avoidance of any allergen/irritant exposure if
possible…typically difficult to do – Avoidance of first generation anti-histamines
(diphenhydramine) due to CNS effects…sedation, drowsiness, impaired cognition, slower reaction times, visual discrimination issues
Allergic Rhinitis (AR)
• Intranasal Corticosteroids – First-line agents for treatment of allergic rhinitis – Superior to antihistamines – Minimal systemic absorption with great topical
efficacy – Take time to work so no immediate effect – Minimal side effect profile – No eligibility issues for athletes
Allergic Rhinitis (AR)
• Antihistamines: 1. Topical Antihistamines (azelastine)
• Equal efficacy to oral antihistamines • Great for as needed or intermittent use • Quick, effective, no sedation, minimal adverse effects
2. Oral Antihistamines • Avoid first generation oral antihistamines • Second generation group is preferred
– Loratadine, desloratadine, fexofenadine, cetirizine* • Preferred for those who can’t tolerate intranasal
corticosteroids
Exercise-Induced Anaphylaxis (EIAn)
• Anaphylaxis that occurs with exercise • 2-15% of anaphylactic reactions associated with
exercise • Typically occurs with vigorous exercise but can be
brought on by lesser physical activity • Rare…but can be fatal • Variability in frequency of attacks • Caused by release of mast cells and allergy-
mediating eosinophils in response to triggers
Exercise-Induced Anaphylaxis (EIAn)
• Typically starts within first 30 mins of exercise and can last up to 3 hours
• Symptoms – Diffuse warmth, flushing, pruritis, fatigue, urticaria
(10-15 mm in diameter)
• Cessation of exercise…immediate improvement/resolution
• If no cessation of exercise…angioedema, GI symptoms, hypotension/vascular collapse, death
Exercise-Induced Anaphylaxis (EIAn)
• Risk Factors: – Personal/family history of atopy – NSAIDs – High heat/humidity…or cold – Alcohol ingestion – High pollen levels
Food-Dependent Exercise-Induced Anaphylaxis (FDEIAn)
• Category of EIAn • Symptoms occur when food allergen ingestion
and exercise occur within a few hours of each other
• Must have both to incite symptoms • Wheat and shrimp most common inciting
foods…also see with nuts, eggs, milk
Urticaria (“Hives”)
• 10-20% incidence in general population
• Pruritic, white or erythematous, blanchable cutaneous elevations
• Mast cell degranulation vasodilation fluid into superficial dermis
• Triggers: – Idiopathic, medications,
allergens, foods, exercise
Urticaria (“Hives”)
• Cholinergic Urticaria – Caused by rapid elevation in body temp – Exercise, fever, anxiety, hot tubs – Flushing and pruritis – Can treat with antihistamines
• Cold Urticaria – Caused by rewarming from exposure to cold objects – Swelling and pruritis – Antihistamine prior to exercise
Urticaria (“Hives”)
• Solar Urticaria – Caused by UV light exposure – Limit UV exposure – Can develop anaphylaxis if significant exposure
• Pressure Urticaria – Caused by direct pressure on skin (mouth guards,
prolonged sitting, wearing a brace) – Localized hives, fever, malaise – Antihistamines, NSAIDs, corticosteroids for treatment
Exercise Induced Angioedema
• Immunologic reaction causing fluid accumulation in deeper dermis layers of skin and subcutaneous tissues
• Pain, burning, pruritis • Favors lips, tongue, larynx, GI system…can be life-
threatening • Thorough evaluation:
– Detailed history (precipitants, meds), labs, skin biopsy • May require referral to allergist
References 1. Krafczyk MA, Asplund CA. Exercise-induced bronchoconstriction:
diagnosis and management. Am Fam Physician. 2011; 84 (4): 427-434.
2. Del Giacco SR, Carlsen KH, Toit GD. Allergy and sports in children. Ped All and Imm. 2012; 23: 11-20.
3. Weder MM, Truwit JD. Pulmonary disorders in athletes. Clin Sports Med. 2011; 30: 525-536.
4. Sacha JJ, Quinn JM. The environment, the airway, and the athlete. Ann Allergy Asthma Immunol. 2011; 106: 81-88.
5. MacKnight JM, Mistry DJ. Allergic disorders in the athlete. Clin Sports Med. 2005; 24: 507-523.
6. Weinberger M, Mutasim AH. Perceptions and pathophysiology of dyspnea and exercise intolerance. Ped Clin N Am. 2009; 56: 33-48.
References 7. Brown DL, Haight DD, Brown LL. Allergic Diseases in Athletes. In: O’Connor FG, Sallis RE, Wilder RP, St Pierre PO. Sports Medicine Just the Facts. McGraw Hill: New York. 2005. 8. Feldweg AM, Sheffer AL. Exercise-induced anaphylaxis: clinical manisfestations, epidemiology, pathologenesis and diagnosis. Up-To-Date. 2015. 9. Feldweg AM, Sheffer AL. Exercise-induced anaphylaxis: management and prognosis. Up-To-Date. 2015.
Questions?